Stable isotopes and foraging behaviors support the role of antipredator benefits in driving the association between two marine fishes

Stable isotopes and foraging behaviors support the role of antipredator benefits in driving the association between two marine fishes

Research from terrestrial communities shows that diminished predation risk is a principal driver of heterospecific grouping behavior, with foraging ecology predicting the roles that species play in groups, as more vulnerable foragers preferentially join more vigilant ones from whom they can benefit....

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Veröffentlicht in:Oecologia 2023-06, Vol.202 (2), p.353-368
Hauptverfasser: Haak, Christopher R., Power, Michael, Wilson, Alexander D. M., Danylchuk, Andy J.
Format: Artikel
Sprache:eng
Schlagworte:
Adaptiveness
Animal behavior
Anti-predator behavior
Biomedical and Life Sciences
Conspecifics
Ecology
Eucinostomus
Exploitation
Fish
Fishes
Food
Foods
Foraging
Foraging behavior
Hydrology/Water Resources
Interspecific relationships
Isotopes
Juveniles
Life Sciences
Marine fish
Marine fishes
Niche overlap
Original Research
Plant Sciences
Predation
Prey
Redundancy
Risk levels
Shoaling
Shoals
Stable isotopes
Vigilance
Vulnerability
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creator Haak, Christopher R.
Power, Michael
Wilson, Alexander D. M.
Danylchuk, Andy J.
description Research from terrestrial communities shows that diminished predation risk is a principal driver of heterospecific grouping behavior, with foraging ecology predicting the roles that species play in groups, as more vulnerable foragers preferentially join more vigilant ones from whom they can benefit. Meanwhile, field studies examining the adaptive significance of heterospecific shoaling among marine fish have focused disproportionately on feeding advantages such as scrounging or prey-flushing. Juvenile bonefish ( Albula vulpes ) occur almost exclusively among mojarras ( Eucinostomus spp.) and even elect to join them over conspecifics, suggesting they benefit from doing so. We evaluated the roles of risk-related and food-related factors in motivating this pattern of affiliation, estimating: (1) the relative levels of risk associated with each species’ search and prey capture activities, via behavioral vulnerability traits discerned from in situ video of heterospecific shoals, and (2) resource use redundancy, using stable isotopes (δ 13 C, δ 15 N, and δ 34 S) to quantify niche overlap. Across four distinct metrics, bonefish behaviors implied a markedly greater level of risk than those of mojarras, typified by higher activity levels and a reduced capacity for overt vigilance; consistent with expectations if their association conformed to patterns of joining observed in terrestrial habitats. Resource use overlap inferred from stable isotopes was low, indicating that the two species partitioned resources and making it unlikely that bonefish derived substantive food-related benefits. Collectively, these findings suggest that the attraction of juvenile bonefish to mojarras is motivated primarily by antipredator advantages, which may include the exploitation of risk-related social cues.
doi_str_mv 10.1007/s00442-023-05390-1
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subjects Adaptiveness
Animal behavior
Anti-predator behavior
Biomedical and Life Sciences
Conspecifics
Ecology
Eucinostomus
Exploitation
Fish
Fishes
Food
Foods
Foraging
Foraging behavior
Hydrology/Water Resources
Interspecific relationships
Isotopes
Juveniles
Life Sciences
Marine fish
Marine fishes
Niche overlap
Original Research
Plant Sciences
Predation
Prey
Redundancy
Risk levels
Shoaling
Shoals
Stable isotopes
Vigilance
Vulnerability
title Stable isotopes and foraging behaviors support the role of antipredator benefits in driving the association between two marine fishes
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